S.D. Hughes scite author profile

Skyrmions in ultrathin ferromagnetic metal (FM)/heavy metal (HM) multilayer systems produced by conventional sputtering methods have recently generated huge interest due to their applications in the field of spintronics. The sandwich structure with two correctly-chosen heavy metal layers provides an additive interfacial exchange interaction which promotes domain wall or skyrmion spin textures that are Néel in character and with a fixed chirality. Lorentz transmission electron microscopy (TEM) is a high resolution method ideally suited to quantitatively image such chiral magnetic configurations. When allied with physical and chemical TEM analysis of both planar and cross-sectional samples, key length scales such as grain size and the chiral variation of the magnetisation variation have been identified and measured. We present data showing the importance of the grain size (mostly < 10 nm) measured from direct imaging and its potential role in describing observed behaviour of isolated skyrmions (diameter < 100 nm). In the latter the region in which the magnetization rotates is measured to be around 30 nm. Such quantitative information on the multiscale magnetisation variations in the system is key to understanding and exploiting the behaviour of skyrmions for future applications in information storage and logic devices.

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Controlled Individual Skyrmion Nucleation at Artificial Defects Formed by Ion Irradiation

Fallon

Hughes

Zeissler

et al. 2020

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Magnetic skyrmions are particle‐like deformations in a magnetic texture. They have great potential as information carriers in spintronic devices because of their interesting topological properties and favorable motion under spin currents. A new method of nucleating skyrmions at nanoscale defect sites, created in a controlled manner with focused ion beam irradiation, in polycrystalline magnetic multilayer samples with an interfacial Dzyaloshinskii–Moriya interaction, is reported. This new method has three notable advantages: 1) localization of nucleation; 2) stability over a larger range of external field strengths, including stability at zero field; and 3) existence of skyrmions in material systems where, prior to defect fabrication, skyrmions were not previously obtained by field cycling. Additionally, it is observed that the size of defect nucleated skyrmions is uninfluenced by the defect itself—provided that the artificial defects are controlled to be smaller than the inherent skyrmion size. All of these characteristics are expected to be useful toward the goal of realizing a skyrmion‐based spintronic device. This phenomenon is studied with a range of transmission electron microscopy techniques to probe quantitatively the magnetic behavior at the defects with applied field and correlate this with the structural impact of the defects.

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Crystal structure and cation stoichiometry of superconducting Tl2Ba2CuO6+δ single crystals

Liu

Hughes

Angel

et al. 1992

Physica C: Superconductivity

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S.D. Hughes

Resistive upper critical field ofTl2Ba2
Mackenzie
¹
,
Julian
²
,
Lonzarich
³

et al. 1993
Phys. Rev. Lett.

A transmission electron microscope study of Néel skyrmion magnetic textures in multilayer thin film systems with large interfacial chiral interaction

Controlled Individual Skyrmion Nucleation at Artificial Defects Formed by Ion Irradiation

Crystal structure and cation stoichiometry of superconducting Tl2Ba2CuO6+δ single crystals

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S.D. Hughes

Resistive upper critical field ofTl2Ba2Mackenzie1, Julian2, Lonzarich3 et al. 1993Phys. Rev. Lett.

A transmission electron microscope study of Néel skyrmion magnetic textures in multilayer thin film systems with large interfacial chiral interaction

Controlled Individual Skyrmion Nucleation at Artificial Defects Formed by Ion Irradiation

Crystal structure and cation stoichiometry of superconducting Tl2Ba2CuO6+δ single crystals

Contact Info

Product

Resources

About

Resistive upper critical field ofTl2Ba2
Mackenzie
¹
,
Julian
²
,
Lonzarich
³

et al. 1993
Phys. Rev. Lett.